Fixturlaser EVO - Condition Monitoring, Shaft Alignment ... · Unit 1 Introduction to Alignment •...

Fixturlaser EVO

T R A I N I N G M A N U A L

version 1.0

Introduction to AlignmentUnit 1

• Module 1-1: The VibrAlign Story

• Module 1-2: How We Train

• Module 1-3: The Machines We Align

• Module 1-4: Basic Shaft Alignment Concepts

• Module 1-5: Misalignment Forces

• Module 1-6: Media Resources

1

Fixturlaser EVO

The VibrAlign StoryModule 1-1

2

[Objective]

At the end of this module, the student will be able to:

‣ Understand the VibrAlign mission, values, and why we exist.

‣ Know his/her instructor’s background.

The VibrAlign Story

VIDEO

Fixturlaser EVO

The VibrAlign StoryModule 1-1

[Lesson] The instructor will discuss the following:

‣ VibrAlign Story

‣ Realigning America

3

Realigning America

VIDEO

Fixturlaser EVO

How We TrainModule 1-2

4

[Objective]


‣ Understand the systematic approach to training.

‣ Understand why we train.

How We Train

VIDEO

Fixturlaser EVO

How We TrainModule 1-2


‣ How we train

‣ If shaft alignment is necessary

5

Shaft Alignment Training, is it Necessary?

VIDEO

Fixturlaser EVO

The Machines We AlignModule 1-3

6

[Objective]


‣ Understand the types of machinery that is typically aligned.

Fixturlaser EVO

The Machines We AlignModule 1-3

[Lesson] The instructor will demonstrate the following:

‣ Basics in alignment

‣ The machines that get aligned

7

Lesson Gallery 1.3.1 The Machines We Align

Fixturlaser EVO

Basic Shaft Alignment ConceptsModule 1-4

8

[Objective]


‣ Understand the rotational axis.

‣ Define shaft alignment.

‣ Be able to explain angular misalignment, gap difference, and offset misalignment.

Fixturlaser EVO

Basic Shaft Alignment ConceptsModule 1-4

[Lesson] The lesson gallery & videos will be used to demonstrate:

‣ What is Offset Misalignment and what does it look like?

‣ What is Angular Misalignment and what does it look like?

9

Concepts of Shaft Alignment 2, Offset and

Angularity

VIDEO

Lesson Gallery 1.4.1 Basic Shaft Alignment Concepts

Concepts of Shaft Alignment 1, the Basics

VIDEO

Fixturlaser EVO

Misalignment ForcesModule 1-5

10

[Objective]


‣ Understand the importance of precise alignment.

‣ Understand the effects of Misalignment on couplings, bearings, seals, and machines.

Fixturlaser EVO

Misalignment ForcesModule 1-5


‣ How misalignment forces cause coupling wear.

‣ How misalignment forces can cause bearing and seal failure.

11

Lesson Gallery 1.5.1 Misalignment Forces

Fixturlaser EVO

Introduction to Alignment ResourcesModule 1-6

12

The VibrAlign Story

VIDEO

Realigning America

VIDEO

How We Train

VIDEO

Shaft Alignment Training, is it Necessary?

VIDEO

Concepts of Shaft Alignment 1, the Basics

VIDEO

Concepts of Shaft Alignment 2, Offset and

Angularity

VIDEO

Pre-AlignmentUnit 2

13

• Module 2-1: Rough Alignment

• Module 2-2: Obvious Soft Foot

• Module 2-3: Tightening Sequence

• Module 2-4: Final Soft Foot Checks

• Module 2-5: Other Pre-alignment Checks Listing

• Module 2-6: Media Resources

Fixturlaser EVO

Rough AlignmentModule 2-1

14

[Objective]


‣ Perform rough alignment of the shafts.

Fixturlaser EVO

Rough AlignmentModule 2-1


‣ Using straight edge or scale to measure the vertical and horizontal offset misalignment.

‣ Using the above information to correct the rough misalignment.

15

Rough Alignment

VIDEO

Roughing In

PHOTO

Fixturlaser EVO

1. Measure the vertical gap between the stationary and movable hubs using a straight edge and shims as a feeler gauge.

2. Correct the vertical misalignment by adding or removing shims to all four feet of the moveable machine.

3. Using the straight edge, measure and correct the horizontal alignment.

Rough AlignmentActivity 2-1

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Fixturlaser EVO

1. Why do you perform rough alignment before attempting to precisely align machines?

2. Which direction should you typically rough align first - vertical or horizontal?

3. Should all machines be uncoupled before roughing in?

Rough AlignmentDiscussion 2-1

17

Fixturlaser EVO

Correcting Obvious Soft FootModule 2-2

18

[Objective]


‣ Correct obvious soft foot.

‣ Understand the different types of soft foot.

Fixturlaser EVO

Correcting Obvious Soft FootModule 2-2


‣ How to identify and measure Obvious Soft Foot using shims or feeler gauges.

‣ How to properly correct Obvious Soft Foot using shims.

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Elimination of Obvious Soft Foot

VIDEO

Fixturlaser EVO

1. With the bolts loose, use a pry bar, screwdriver, or pliers to look for shim piles that have less resistance than others. This indicates that the weight is not being distributed equally over all four feet.

2. Add shims as needed to make the resistance at each foot feel the same.

3. You may need to pry up on a foot to insert the corrective shim.

Correcting Obvious Soft FootActivity 2-2

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Fixturlaser EVO

1. What are some possible causes of soft foot?

2. Why should you correct soft foot before attempting precision alignment?

3. Why should you rough align before checking for soft foot?

Correcting Obvious Soft FootDiscussion 2-2

21

Fixturlaser EVO

Tightening SequenceModule 2-3

22

[Objective]


‣ Understand the need to maintain a specific bolt tightening sequence.

Fixturlaser EVO

Tightening SequenceModule 2-3


‣ Establishing a bolt tightening sequence.

‣ Taking three passes to achieve full torque.

23

Bolt Tightening

VIDEO

Bolt Tightening Order

PHOTO

Fixturlaser EVO

In three steps:

1. Tighten bolts, in order, hand tight.

2. Snug bolts, in order, to about 50% of final torque.

3. Tighten bolts, in order, to final torque.

Tightening SequenceActivity 2-3

24

Fixturlaser EVO

1. Why should you follow a specific sequence when tightening bolts?

2. What benefits are gained by tightening the bolts down in a controlled, repeatable pattern?

Tightening SequenceDiscussion 2-3

25

Fixturlaser EVO

Final Soft Foot CorrectionsModule 2-4

26

[Objective]


‣ Detect and correct final soft foot.

‣ Identify whether an “angular” correction is required.

‣ Explain how to correct angled foot.

‣ Control and minimize the effects of any remaining residual soft foot.

Fixturlaser EVO

Final Soft Foot CorrectionsModule 2-4


‣ Using a .002” (2 mils) shim to detect and correct any final soft foot.

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Final Soft Foot Checks

VIDEO

Fixturlaser EVO

In this procedure you will:

1. Loosen one foot.

2.Measure for any remaining soft foot by checking several places under the foot with a 2-mil shim.

3.Re-tighten hold-down bolt.

4.Repeat process for the remaining three feet, tightening each foot back down after completion.

Final Soft Foot CorrectionsActivity 2-4

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Fixturlaser EVO

1. Why do we check for Final Soft Foot by loosening only one bolt at a time?

2. Why are two soft foot checks needed?

3. What benefits are gained by tightening the bolts down in a controlled, repeatable pattern?

Final Soft Foot CorrectionsDiscussion 2-4

29

Fixturlaser EVO

Other Pre-Alignment Checks ListingModule 2-5

30

[Objective]

At the end of this module, the student will have an understanding of additional pre-alignment checks.

‣ Check run out.

‣ Check for proper coupling hub separation.

‣ Measurement for pipe stress.

Fixturlaser EVO

Other Pre-Alignment Checks ListingModule 2-5


‣ Obvious safety inspections.

‣ Performing a visual inspection of the machine.

‣ Checking for run out on both coupling hubs and shafts.

‣ Measuring hub separation.

‣ Using dials to detect excessive pipe stress.

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Fixturlaser EVO

Pre-Alignment ResourcesModule 2-6

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Rough Alignment

VIDEO

Elimination of Obvious Soft Foot

VIDEO

Bolt Tightening

VIDEO

Final Soft Foot Checks

VIDEO

Roughing In

PHOTO

Bolt Tightening Order

PHOTO

Basic Shaft AlignmentUnit 3

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• Module 3-1: Demonstration of precision alignment #1• Module 3-2: Demonstration of precision alignment #2• Module 3-3: Student Practice #1

• Module 3-4: Student Practice #2• Module 3-5: Introduction to Tolerances • Module 3-6: Student Practice #3: Using 3600 RPM Tolerances

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Unit 3 Basic Shaft Alignment

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• Module 3-7: Student Practice #3- Uncoupled Alignment• Module 3-8: Sampling Time

• Module 3-9: Vibration Filtering

• Module 3-10: Basic Shaft Alignment Media Resources

Fixturlaser EVO

Demonstration of Precision Alignment #1Module 3-1

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[Objective]


‣ Observe an entire precision alignment process.

Fixturlaser EVO



‣ Setting up the EVO.

‣ Starting the horizontal alignment program.

‣ Aiming the lasers.

‣ Entering machine dimensions.

The Importance of Proper Alignment Technique and Being Aware of movement

BLOG POST

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Touch-Tip: Set Up

VIDEO

Touch-Tip: Entering Dimensions and Setting

Tolerances

VIDEO

Touch-Tip: Express Mode Alignment

VIDEO

Fixturlaser EVO


[Lesson cont’d] The instructor will demonstrate the following:

‣ Measuring misalignment.

‣ Making a Verti-Zontal Compound Move.

‣ Remeasuring alignment.

‣ Saving results.

37

Lesson Gallery 3.1.1 Measuring and Correcting Using the Fixturlaser EVO

Fixturlaser EVO

1. Of the four dimensions which do you think are the most important to measure correctly?

2. True or false, the sensors should be mounted as closely together as possible.

3. At what point do the lasers become visible and begin measurement?

Demonstration of Precision Alignment #1Discussion 3-1

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Fixturlaser EVO

Demonstration of Precision Alignment #2 Module 3-2

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[Objective]


‣ Assist in an entire precision alignment process.

Fixturlaser EVO

Demonstration of Precision Alignment #2 Module 3-2


‣ Setting up the EVO.

‣ Starting the horizontal alignment program.

‣ Aiming the lasers.

‣ Entering machine dimensions.

‣ Measuring misalignment.

40

Fixturlaser EVO



‣ Making a Verti-Zontal Compound Move.

‣ Monitoring for coupling looseness.

‣ Remeasuring alignment.

‣ Saving results.

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BLOG POST

Touch-Tip: Set Up

VIDEO


Tolerances

VIDEO

Touch-Tip: Express Mode Alignment

VIDEO

Fixturlaser EVO

1. How important is it to save the “as found” data?

2. Is it important to aim the lasers perfectly?

3. On the results screen, which group of numbers is most important, those at the coupling, or those at the feet?

4. How do you know if you’ve maintained proper backlash during the measurement process?

Demonstration of Precision Alignment #2Discussion 3-2

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Fixturlaser EVO

Student Practice #1 Module 3-3

43

[Objective]


‣ Perform an entire precision alignment using the with a tolerance of 1800 rpm.

Fixturlaser EVO

Student Practice #1 LessonModule 3-3

[Lesson] The instructor will observe and assist you in performing a complete alignment.

44

Fixturlaser EVO

1. Remove the shims from the moveable element.

2. Perform your pre-alignment checks and correction.

3. Perform a precision alignment for an 1800 rpm machine.

4. Re-measure and document the results.

Student Practice #1 Activity 3-3

45

Fixturlaser EVO

1. What do the colors of the coupling icons represent?

2. What is a primary benefit of using the Verti-Zontal process?

3. Did the alignment demonstrator move in the manner and direction you expected?

Student Practice #1 Discussion 3-3

46

Fixturlaser EVO

Student Practice #2Module 3-4

47

[Objective]


‣ Perform an entire precision alignment process with a tolerance of 1800 rpm using the Tri-Point Method.

Fixturlaser EVO

Student Practice #2Module 3-4

‣[Lesson] The instructor will observe and assist you in the following:

‣ Perform a precision alignment for a 1800 rpm machine using the Tri-Point Method.

‣ Re-measure and document the results.

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How to Minimize the Effects of Backlash When Measuring Misalignment

BLOG POST

Aligning Uncoupled Machines

BLOG POST

Shaft Alignment With A Fluid Coupling

BLOG POST

Choosing the Best Way to Mount the Sensors of Your

Laser Alignment Tool

BLOG POST

From the Mailbag: Mounting to Coupling Hubs

BLOG POST

Flexible Couplings and Flexible Shafts

BLOG POST

Fixturlaser EVO



3. Perform a precision alignment for an 1800 rpm machine using the Tri-Point method.

4. Re-measure and document the results.

Student Practice #2Activity 3-4

49

Fixturlaser EVO

1. Is it required to use clock positions for measurements when using the EVO?

2. Why does it only require three measurements?

Student Practice #2Discussion 3-4

50

Fixturlaser EVO

Introduction to TolerancesModule 3-5

51

[Objective]


‣ Understand the reason for alignment tolerances.

Fixturlaser EVO

Introduction to TolerancesModule 3-5


‣ Changing the alignment tolerance from an 1800 rpm tolerance to a 3600 rpm tolerance.

52

Who Decides Shaft Alignment Tolerances?

BLOG POST

Tolerances vs. Coupling Tolerances

BLOG POST

Don’t Look at Your Feet

ARTICLE PHOTO

The Zone of Good Alignment

Lesson Gallery 3.5.1 Tolerances


Tolerances

VIDEO

Fixturlaser EVO



3. Use the EVO to select 3600 rpm tolerance and enter the machine dimensions.

4. Leave the EVO on and in the shaft alignment application.

Introduction to TolerancesActivity 3-5

53

Fixturlaser EVO

1. Why are alignment tolerances specified?

2. Do you know your company’s alignment tolerances?

3. Why is alignment to zero impractical?

Introduction to TolerancesDiscussion 3-5

54

Fixturlaser EVO

Prac #3: Using 3600 RPM TolerancesModule 3-6

55

[Objective]


‣ Measure the “as found” alignment data from the roughing in process and save the data.

‣ Perform an entire precision alignment process with a tolerance of 3600 rpm.

‣ Save the final “as left” alignment data.

Fixturlaser EVO

Prac #3: Using 3600 RPM TolerancesModule 3-6

[Lesson] The instructor will observe and assist in performing a 3600 rpm alignment.

56


BLOG POST


BLOG POST


ARTICLE PHOTO


Fixturlaser EVO

1. Complete the alignment, using a tolerance of 3600 rpm.

2. Re-measure and document the “as left” data.

Prac #3: Using 3600 RPM TolerancesActivity 3-6

57

Fixturlaser EVO

1. What are some challenges of aligning to a 3600 rpm tolerance?

2. Are shim stack thicknesses more critical at 3600 rpm?

3. What would be the importance of saving both the “as found” and “as left” data?

4. How can the Zone of Good Alignment be used to determine acceptable foot values?

Prac #3: Using 3600 RPM TolerancesDiscussion 3-6

58

Fixturlaser EVO

Practice #4: Uncoupled AlignmentModule 3-7

59

[Objective]


‣ Complete a precision alignment of an uncoupled machine.

‣ Have a better understanding of the inclinometer values on the EVO, and how they can be utilized.

Fixturlaser EVO

Practice #4: Uncoupled AlignmentModule 3-7


‣ Performing an uncoupled precision alignment.

60


BLOG POST

Fixturlaser EVO


2. Perform the pre-alignment steps.

3. Leave the coupling insert out.

4. Measure misalignment and save the “as found” data.

5. Complete the alignment, using a tolerance of 1800 rpm.

6. Re-measure and document the “as left” data.

Practice #4: Uncoupled AlignmentActivity 3-7

61

Fixturlaser EVO

1. When would it be preferable to perform an uncoupled alignment?

2. Should the alignment values change once the coupling is assembled?

3. How close should the inclinometer values be kept when performing an uncoupled alignment?

Practice #4: Uncoupled AlignmentDiscussion 3-7

62

Fixturlaser EVO

Sampling TimeModule 3-8

63

[Objective]


‣ Understand and utilize the Sampling Time and Screen Filtering functions of the Fixturlaser EVO.

Fixturlaser EVO

Sampling TimeModule 3-8


‣ Changing the Sampling Time to 5 seconds

64

Lesson Gallery 3.8.1 Sampling Time

Is Vibration Interfering With Your Precision Shaft

Alignment?

BLOG POST

Non-repeatability, A Little movement Can

Cause A Lot of Headaches

BLOG POST

Fixturlaser EVO

1. How can increasing the sampling time improve repeatability?

2. How would you best determine when the sampling time should be increased?

Sampling TimeDiscussion 3-8

65

Fixturlaser EVO

Vibration FilteringModule 3-9

66

[Objective]


‣ Understand the use of the Screen Filter, and when to utilize it.

Fixturlaser EVO

Vibration FilteringModule 3-9


‣ Use of the Screen Filter.

67

Fixturlaser EVO

1. What is the purpose of the Screen Filter?

2. What is the best method of determining the influences of external vibration on alignment data?

3. Should the Screen Filter be used for every alignment? Why or why not?

4. Explain the difference in the Screen Filter and the Sampling Time.

Vibration FilteringDiscussion 3-9

68

Fixturlaser EVO

Basic Shaft Alignment ResourcesModule 3-10

69


BLOG POST

How to Minimize the Effects of Backlash When Measuring Misalignment

BLOG POST


BLOG POST

Shaft Alignment With A Fluid Coupling

BLOG POST

Choosing the Best Way to Mount the Sensors of Your

Laser Alignment Tool

BLOG POST

From the Mailbag: Mounting to Coupling Hubs

BLOG POST

Flexible Couplings and Flexible Shafts

BLOG POST


BLOG POST


BLOG POST

Non-repeatability, A Little movement Can

Cause A Lot of Headaches

BLOG POST

Fixturlaser EVO

Basic Shaft Alignment Resources Module 3-10

70


ARTICLE PHOTO


Is Vibration Interfering With Your Precision Shaft

Alignment?

BLOG POST

Alignment Problems and SolutionsUnit 4

71

• Module 4-1: When Things Go Wrong- looseness, backlash • Module 4-2: Soft Foot Revisited (including angled foot)• Module 4-3: Student Practice #6: Solving Base Bound/Bolt Bound Issues• Module 4-4: Media Resources

Fixturlaser EVO

Backlash and LoosenessModule 4-1

72

[Objective]


‣ Identify issues associated with coupling backlash and system looseness.

Fixturlaser EVO


‣ How backlash and looseness affect readings

‣ How to identify and control backlash and looseness

‣ Methods to control backlash

Backlash and LoosenessModule 4-1

73

How To Minimize the Effects of Coupling Backlash When

Measuring Misalignment

BLOG POST

Troubleshooting Looseness During Shaft Alignment.

BLOG POST

Backlash

VIDEO

Fixturlaser EVO

1. Mount the sensors as you would in a normal alignment

2. Start up the EVO, and select horizontal alignment.

3. Select 1800 RPM and follow through to the alignmentscreen, stop.

4. Enter dimensions and follow through to the alignment screen, stop.

5. At this point, take note of the inclinometer readings at thetop of the EVO display screen.

Backlash and LoosenessActivity 4-1

74

Fixturlaser EVO

6. Rotate the movable shaft back and fourth causing backlash in the coupling.

7. Take note of the inclinometer readings and how they change.

8. Take note of any warnings that may be displayed on the screen.

Backlash and LoosenessActivity 4-1

75

Fixturlaser EVO

1. When the shafts are rotated, how did the inclinometer readings change?

2. When backlash was introduced into the coupling, were there any warnings displayed on the screen?

3. How would you correct the warning situation?

4. What are some methods for preventing backlash?

Backlash and LoosenessDiscussion 4-1

76

Fixturlaser EVO

Soft Foot Revisited Module 4-2

77

[Objective]


‣ Measure and correct soft foot using the Fixturlaser EVO.

Fixturlaser EVO

Soft Foot Revisited Module 4-2

[Lesson] The instructor will demonstrate using the EVO Soft Foot App.

78

Small Details Make A Big Difference in Shaft

Alignment

BLOG POST

Defining Level vs. Flat

BLOG POST

Pre-alignment Steps for Shaft Alignment

VIDEO

“Mic” Your Shims

BLOG POST

Lesson Gallery 4.2.1 Softfoot Revisited

Fixturlaser EVO

1. Using the process demonstrated, measure and correct soft foot on your demonstrator using the EVO Soft Foot App.

Soft Foot Revisited Activity 4-2

79

Fixturlaser EVO

1. What do the numbers represent?

2. How could all four feet be soft?

3. What would be the reason that adding a shim would cause little or no change when re-measured?

4. How could you resolve this problem?

5. What effect does “angled” softfoot have on the alignment?

Soft Foot Revisited Discussion 4-2

80

Fixturlaser EVO

Base Bound/Bolt Bound IssuesModule 4-3

81

[Objective]


‣ Discuss alternative solutions to limited movement of machines in both vertical and horizontal planes.

‣ Determine solutions for dealing with Base Bound/Bolt Bound issues and correct.

Fixturlaser EVO

Base Bound/Bolt Bound Issues LessonModule 4-3


‣ What Base Bound/Bolt Bound conditions are

‣ Alternative moving methods

82

Base-Bound/Bolt-Bound Math

BLOG POST

Is it okay to undercut bolts?

BLOG POST

Take a Step BackDuring Your

Shaft Alignment

BLOG POST

What if You Had to Leave a Machine

Slightly Misaligned?

BLOG POST

Fixturlaser EVO

1. Instructor will set the alignment demonstrator up in a Base Bound or Bolt Bound Condition.

2. Students will perform initial alignment measurements.

3. Instructor will guide students through alternative solutions.

Base Bound/Bolt Bound IssuesActivity 4-3

83

Fixturlaser EVO

1. What are some methods in which a Bolt Bound condition is traditionally solved?

2. Can a stationary machine sometimes be moved slightly?

Base Bound/Bolt Bound IssuesDiscussion 4-3

84

Fixturlaser EVO

Alignment Problems and Solutions

Resources

Module 4-4

85

How To Minimize the Effects of Coupling Backlash When

Measuring Misalignment

BLOG POST

Troubleshooting Looseness During Shaft Alignment.

BLOG POST

Small Details Make A Big Difference in Shaft

Alignment

BLOG POST

Pre-alignment Steps for Shaft Alignment

VIDEO

“Mic” Your Shims

BLOG POST

Base-Bound/Bolt-Bound Math

BLOG POST

Is it okay to undercut bolts?

BLOG POST

Take a Step BackDuring Your

Shaft Alignment

BLOG POST

What if You Had to Leave a Machine

Slightly Misaligned?

BLOG POST

VibrAlign Resources Unit 5

86

• Module 5-1: Mobile Applications• Module 5-2: The Alignment Blog

• Module 5-3: VibrAlign YouTube Channel

• Module 5-4: Realigning America• Module 5-5: The Alignment Resource Center• Module 5-6: T-mail Training Newsletter• Module 5-7: Training Website

Fixturlaser EVO

Mobile Apps: iOS and AndroidModule 5-1

87

Gallery 5.1 Laser-Dials App Gallery 5.2 Therm Align App Gallery 5.3 Align Terms App

Fixturlaser EVO

Mobile Apps: iOS and AndroidModule 5-1

88

Gallery 5.4 Align Hot Check Gallery 5.5 Fixturlaser Dials

Fixturlaser EVO

The Alignment BlogModule 5-2

Our goal here is to provide informative, relevant articles on the challenges of aligning industrial equipment. We’ll talk about gathering meaningful alignment data, making the difficult moves, common pitfalls, etc. We’ll present real-world situations with data we’ve collected in the field and hopefully get some good discussions going. This will also be another place to keep up with innovations and product releases from Fixturlaser.

89

Fixturlaser EVO

VibrAlign YouTube ChannelModule 5-3

90

http://www.youtube.com/user/VibrAlign

Fixturlaser EVO

Realigning America

Realigning America signifies a nationwide community of aligners that can provide a sense of support and camaraderie among colleagues. Through Realigning America, your work is made public to the world. This exposure offers a gateway for aligner prominence and notability within the community of Realigning America. Posted alignments instantly create a learning environment that fosters collaboration and education.

Module 5-4

91

All of the VibrAlign collection of alignment materials is now being collected and made available on the Alignment Resource Center. The site not only provides access to articles and videos about alignment, it also provides access to all the posts from The Alignment Blog. All the content is organized and searchable.

Fixturlaser EVO

The Alignment Resource CenterModule 5-5

92

Fixturlaser EVO

T-mail Training NewsletterModule 5-6

The eNewsletter features advice from VibrAlign’s alignment experts, and articles on technical topics, as well as answers to questions from T-Mail subscribers and VibrAlign customers. T-Mail will also keep subscribers up to date on product updates, new software including apps, training classes, and relevant content available through other publications such as VibrAlign’s blog and website.

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Fixturlaser EVO

Training WebsiteModule 5-7

94

http://www.vibralign.com/Training

Operating Modes, Measurement Units, & File Management

Unit 6

95

• Module 6-1: Screen Flip

• Module 6-2: Power Supply and Charging

• Module 6-3: Measurement Units

• Module 6-4: Bluetooth Pairing• Module 6-5: File Management • Module 6-6: EVO Care and Handling

Fixturlaser EVO

Screen Flip™Module 6-1

96

[Objective]


‣ Understand the Screen Flip function and how to utilize it.

Fixturlaser EVO

Screen Flip™Module 6-1

[Lesson] The instructor will demonstrate the Screen Flip function.

97

Lesson Gallery 6.1.1 Screen Flip

Touch-Tip: Screen Flip

VIDEO

Fixturlaser EVO

1. Student rotates EVO screen using Screen Flip function.

Screen Flip™Activity 6-1

98

Fixturlaser EVO

1. What are the benefits of using the Screen Flip Function of the EVO?

Screen Flip™Discussion 6-1

99

Fixturlaser EVO

Power Supply and ChargingModule 6-2

100

[Objective]


‣ Understand the charging functions of the EVO.

Fixturlaser EVO

Power Supply and ChargingModule 6-2


‣ Battery life and maintenance.

‣ Low battery indicator.

‣ Charging cycle and indicator.

‣ How to charge the display unit and Bluetooth transmitters.

101

Lesson Gallery 6.2.1 Power Supply and Charging

Fixturlaser EVO

1. Should I ever remove the charging cables from the EVO case?

2. Can I check the charge level of the batteries while the EVO is turned off?

Power Supply and ChargingDiscussion 6-2

102

Fixturlaser EVO

Measurement UnitsModule 6-3

103

[Objective]


‣ Change measurement units between Imperial and Metric Settings.

Fixturlaser EVO

Measurement UnitsModule 6-3


‣ Changing between Imperial and Metric units.

104

Fixturlaser EVO

1. From the alignment report, how can I easily tell if the EVO is set up to measure in inches or millimeters?

Measurement UnitsDiscussion 6-3

105

Fixturlaser EVO

Bluetooth PairingModule 6-4

106

[Objective]


‣ Know how and when to re-pair the Bluetooth Transmitters

Fixturlaser EVO

Bluetooth PairingModule 6-4


‣ Un-pairing and re-pairing the Bluetooth transmitters.

‣ When the pairing process would be necessary.

107

Lesson Gallery 6.4.1 Bluetooth Pairing

Fixturlaser EVO

1. Is there typically any reason to un-pair the Bluetooth transmitters?

Bluetooth PairingDiscussion 6-4

108

Fixturlaser EVO

File ManagementModule 6-5

109

[Objective]


‣ Copy alignment data from the EVO Display Unit to a PC.

‣ View alignment data from within the EVO memory.

Fixturlaser EVO

File ManagementModule 6-5


‣ Connecting the EVO to a PC.

‣ Transferring alignment date into a PC.

‣ Opening an existing alignment in the EVO memory.

110

Lesson Gallery 6.5.1 File Management

Fixturlaser EVO

1. What would be a good way to organize folders for your facility?

2. Can a file or folder be moved back into the EVO from a PC.

3. Is a special program needed to transfer files and folders from the EVO onto a PC?

File ManagementDiscussion 6-5

111

Fixturlaser EVO

Care and HandlingModule 6-6

112

[Objective]


‣ Understand the proper care, handling and cleaning of the Fixturlaser EVO Pro Alignment System.

Fixturlaser EVO

Care and HandlingModule 6-6


‣ EVO Storage case.

‣ EVO display unit, M & S Sensors IP65 rating.

‣ Touch screen durability.

‣ Temperature and humidity working range.

‣ Proper cleaning of display unit screen, detector and laser “windows” using a soft cloth or Q-tip not paper products. Use Alcohol only.

113

Fixturlaser EVO

1. Can I clean my EVO with an ammonia based cleaner?

2. Do I need to protect the EVO Display Unit and Sensors from rain?

3. What should I use to clean the laser and detector openings on the sensors, paper towels or a Q-tip?

Care and HandlingDiscussion 6-6

114

Advanced Shaft AlignmentUnit 7

115

• Module 7-1: Thermal Growth & Dynamic Movement• Module 7-2: Entering Thermal Targets at the Feet• Module 7-3: Entering Thermal Targets at the Coupling • Module 7-4: Student Practice #7 using Thermal Targets

116

Unit 7 Advanced Shaft Alignment

116

• Module 7-5: Vertical Alignment

• Module 7-6: Machine Defined Data

• Module 7-7: Media Resources*

Fixturlaser EVO

Thermal Growth & Dynamic MovementModule 7-1

117

[Objective]


‣ Explain why some machines are intentionally misaligned.

‣ Discuss the difference between thermal growth and thermal targets.

‣ Define Dynamic Movement.

Fixturlaser EVO

Thermal Growth & Dynamic Movement Module 7-1


‣ Causes of thermal growth.

‣ How thermal growth affects.

‣ Necessity of accurate thermal growth targets.

Thermal Growth: What’s So Hot About It?

BLOG POST

How Does Calculating Your Own Alignment

Targets Work?

BLOG POST

Shaft AlignmentThermal Growth Targets-

When You Don’t Know

BLOG POST

Should Thermal Growth Affect Angular Misalignment?

BLOG POST

Thermal Growth Compensation- Growth

Versus Targets

BLOG POST

Checking Your Thermal Targets

BLOG POST

118

Fixturlaser EVO

1. What are targets?

2.Can thermal changes affect both elements?

3.Can you have both vertical and horizontal changes?

4.What is the most common cause of dynamic movement?

Thermal Growth & Dynamic MovementDiscussion 7-1

119

Fixturlaser EVO

Entering Thermal Targets at the FeetModule 7-2

120

[Objective]


‣ Enter thermal targets at the feet of the moveable and/or stationary machine(s).

Fixturlaser EVO

Entering Thermal Targets at the FeetModule 7-2


‣ Select the Thermal Targets icon.

‣ Choose the foot icon.

121


BLOG POST


Targets Work?

BLOG POST



BLOG POST


BLOG POST


Versus Targets

BLOG POST


BLOG POST

Lesson Gallery 7.2.1 Thermal Growth

Fixturlaser EVO

1. Student enters thermal targets at the feet.

Entering Thermal Targets at the FeetActivity 7-2

122

Fixturlaser EVO

1. When would you enter the Thermal Growth Target Values atthe feet?

2. Can Thermal Growth Targets be entered for both the moveable and stationary machines?

3. Where do your thermal growth targets come from?

4. Should thermal growth targets be used if the machine you are aligning is hot?

Entering Thermal Targets at the FeetDiscussion 7-2

123

Fixturlaser EVO

Entering Thermal Targets at the CouplingModule 7-3

124

[Objective]


‣ Enter thermal targets at the coupling for the movable machine.

Fixturlaser EVO

Entering Thermal Targets at the CouplingModule 7-3


‣ Select the Thermal Targets icon.

‣ Choose the coupling icon.

‣ Define and enter targets.

‣ Return to the shaft alignment.

125

Fixturlaser EVO

1. Students re-measure new alignment results, then input thermal offset targets at the coupling of +.5 mils per inch angularity, and an offset of +3 mils.

Entering Thermal Targets at the CouplingActivity 7-3

126

Fixturlaser EVO

1. Where do I get these targets?

2. Why would you use foot targets vs. coupling targets?

3. How do I use the positive and negative values?

4. Can I store these targets?

Entering Thermal Targets at the CouplingDiscussion 7-3

127

Fixturlaser EVO

Practice #7: Using Thermal TargetsModule 7-4

128

[Objective]


‣ Perform the entire precision alignment process with a tolerance of 1800 RPM and to Thermal Targets of -8 mils for the front and rear feet of the movable machine.

Fixturlaser EVO

Practice #7: Using Thermal TargetsModule 7-4

[Lesson] The instructor will observe & assist in the following:

‣ Remove the shims from the moveable element.

‣ Perform your pre-alignment checks and corrections.

‣ Enter Thermal Target Foot Values of -8.0 mils for the front and rear feet of the movable machine.

‣ Perform a precision alignment for an 1800 rpm machine.

‣ Re-measure and document the results.

129

Fixturlaser EVO

1. What icon should you see on the EVO screen when performing an alignment with Thermal Targets.

2. You have entered a Thermal Target of -8.0 mils for the front feet of the movable machine. The EVO Shim Screen shows to remove 28 mils from the front feet. How much shim do you remove?

Practice #7: Using Thermal TargetsDiscussion 7-4

130

Fixturlaser EVO

Vertical AlignmentModule 7-5

131

[Objective]

‣At the end of this module, the student will be able to:

‣ Identify when to use the vertical alignment application.

‣ Understand the differences in vertical alignment of C-face motors, and vertically-oriented motors with four feet.

Fixturlaser EVO

Vertical AlignmentModule 7-5

[Lesson] The instructor will demonstrate & discuss the following:

‣ The Vertical Alignment icon.

‣ Differences in C-face and four footed motors.

132

A Vertical Shaft Alignment Process

BLOG POST

Lesson Gallery 7.5.1 Vertical Alignment

Fixturlaser EVO

1. What are the major differences in the dimensions needed to perform a vertical alignment?

2. How could you perform a vertical alignment on a machine with four motor feet?

3. If you have a horizontally-mounted C-face motor, which measurement method should you use – horizontal or vertical?

Vertical AlignmentDiscussion 7-5

133

Fixturlaser EVO

Machine Defined DataModule 7-6

134

[Objective]


‣ Understand the Machine Defined Data function of the EVO.

‣ Discuss possible uses of the function.

Fixturlaser EVO



‣ How to save Machine Defined Data

135

Lesson Gallery 7.6.1 Machine Defined Data

Fixturlaser EVO



‣ How to recall Machine Defined Data

136

Fixturlaser EVO

1. You have 10 identical motor-pump configurations. Could a Machine Defined Data template be used?

2. If the 10 machines above were not identical, could a Machine Defined Data template be used? Why or why not?

Machine Defined DataDiscussion 7-6

137

Fixturlaser EVO


BLOG POST


Targets Work?

BLOG POST



BLOG POST


BLOG POST


Versus Targets

BLOG POST


BLOG POST

Advanced Shaft Alignment Resources Module 7-7

138

Measuring Thermal growth with XA Pro

and OL2R

BLOG POST

Machine Train Shaft Alignment- To Move or Not

to Move

BLOG POST

Calculating FootTargets

BLOG POST

A Vertical Shaft Alignment Process

BLOG POST

Dial Indicator Alignment Concepts

VIDEO

Fixturlaser EVO Training Manual

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Phone (804) 379-2250Fax (804) 379-0189

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Fixturlaser EVO - Condition Monitoring, Shaft Alignment ... · Unit 1 Introduction to Alignment •...

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